Inspiration:
Voice assistive technologies are changing the way we interact with our world. They have the potential to become our companions, loyal friends in our times of need. But in its current form, by only being able to act in the form of voice, these devices are fundamentally limited – unable to interact with us where it matters most, in the physical world. We look to change that through AlexaGo.

What it does:
AlexaGo takes Amazon Alexa, the best in voice-assistive technology, and mounts it on a mobile robot exoskeleton. This allows AlexaGo to respond to your voice commands through physical actions: say fetching you a ca of pop or lighting your way down a dark hallway. The AlexaGo was designed with the elderly as a specific target group, with our device configurable to many mobility-based applications.

How we built it:
To build AlexaGo, we first built a robotic exoskeleton which allowed for 2D motion and had an attached robot arm. Then, we programmed an Amazon Alexa to be able to translate our voice commands into physical commands in the Arduino programming language, which were then executed on the robot through an Arduino board. In order to analyze the surrounding environment, we used Darknet: a deep learning image recognition platform.